Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To screen the differentially expressed microRNAs related to radio-resistance, we compared the microRNA profiles of lung cancer cells with different responses to ionizing radiation (IR). Of 328 microRNAs in microarray, 27 microRNAs were differentially expressed in NCI-H460 (H460) and NCI-H1299 (H1299) cells. Among them, let-7g was down-regulated in radio-resistant H1299 cells, and the level of let-7g was higher in radio-sensitive cells like Caski, H460, and ME180 in qRT-PCR analysis than in radio-resistant cells like A549, H1299, DLD1, and HeLa. Over-expression of let-7g in H1299 cells could suppress the translation of KRAS, and increase the sensitivity to IR. When we knockdown the expression of LIN28B, an upstream regulator of let-7g, the level of mature let-7g was increased in H1299 cells and the sensitivity to IR was also enhanced in LIN28B knockdown cells. From these data, we suggest that LIN28B plays an important role in radiation responses of lung cancer cells through inhibiting let-7g processing and increasing translation of KRAS.
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PMID:LIN28B confers radio-resistance through the posttranscriptional control of KRAS. 1974 2

Recent advances in the characterization of the lung cancer genome have suggested that KRAS may frequently be amplified, although little is known regarding the significance of this finding. This is in contrast with activating mutations of KRAS, which occur in approximately 20% of non-small cell lung carcinomas (NSCLCs). We used fluorescence in situ hybridization to provide direct evidence of KRAS amplification for the first time in clinical specimens. We detected amplification in 7 of 100 consecutive NSCLCs, with a concurrent activating KRAS mutation in 4 cases. KRAS amplification was associated with greater expression of p21 as assessed by quantitative immunohistochemical analysis (P = .015). Our data indicate that a sizable subgroup of NSCLCs harbor KRAS amplification, some of which also contain point mutations, and suggest that an increased KRAS copy number may drive p21 overexpression. KRAS amplification may define a unique clinicopathologic subset of NSCLCs with potentially altered responsiveness to targeted therapies.
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PMID:In situ evidence of KRAS amplification and association with increased p21 levels in non-small cell lung carcinoma. 1976 26

Mutations inducing resistance to anti-epidermal growth factor receptor (EGFR) therapy may have a clinical impact even if present in minor cell clones which could expand during treatment. We tested this hypothesis in lung cancer patients treated with tyrosine kinase inhibitors (TKIs). Eighty-three patients with lung adenocarcinoma treated with erlotinib or gefitinib were included in this study. The mutational status of KRAS and EGFR was investigated by direct sequencing (DS). KRAS mutations were also assessed by mutant-enriched sequencing (ME-sequencing). DS detected KRAS mutations in 16 (19%) of 83 tumors; ME-sequencing identified all the mutations detected by DS but also mutations in minor clones of 14 additional tumors, for a total of 30 (36%) of 83. KRAS mutations assessed by DS and ME-sequencing significantly correlated with resistance to TKIs (P = .04 and P = .004, respectively) and significantly affected progression-free survival (PFS) and overall survival (OS). However, the predictive power of mutations assessed by ME-sequencing was higher than that obtained by DS (hazard ratio [HR] = 2.82, P = .0001 vs HR = 1.98, P = .04, respectively, for OS; HR = 2.52, P = .0005 vs HR = 2.21, P = .007, respectively, for PFS). Survival outcome of patients harboring KRAS mutations in minor clones, detected only by ME-sequencing, did not differ from that of patients with KRAS mutations detected by DS. Only KRAS mutations assessed by ME-sequencing remained an independent predictive factor at multivariate analysis. KRAS mutations in minor clones have an important impact on response and survival of patients with lung adenocarcinoma treated with EGFR-TKI. The use of sensitive detection methods could allow to more effectively identify treatment-resistant patients.
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PMID:Clinical implications of KRAS mutations in lung cancer patients treated with tyrosine kinase inhibitors: an important role for mutations in minor clones. 1979 67

Aberrant expression of the epidermal growth factor receptor (EGFR) system has been reported in a wide range of epithelial cancers. In some studies, this has also been associated with a poor prognosis and resistance to the conventional forms of therapies. These discoveries have led to the strategic development of several kinds of EGFR inhibitors, five of which have gained US Food and Drug Administration approval for the treatment of patients with non-small-cell lung cancer (gefitinib and erlotinib), metastatic colorectal cancer (cetuximab and panitumumab), head and neck (cetuximab), pancreatic cancer (erlotinib) and breast (lapatinib) cancer. Despite these advances and recent studies on the predictive value of activating EGFR mutation and KRAS mutations with response in non-small-cell lung cancer and colon cancer patients, there is currently no reliable predictive marker for response to therapy with the anti-EGFR monoclonal antibodies cetuximab and panitumumab or the small molecule EGFR tyrosine kinase inhibitors gefitinib and erlotinib. In particular, there has been no clear association between the expression of EGFR, determined by the US Food and Drug Administration-approved EGFR PharmDX kit, and response to the EGFR inhibitors. Here, we discuss some of the controversial data and explanatory factors as well as future studies for the establishment of more reliable markers for response to therapy with EGFR inhibitors. Such investigations should lead to the selection of a more specific subpopulation of cancer patients who benefit from therapy with EGFR inhibitors, but equally to spare those who will receive no benefit or a detrimental effect from such biological agents.
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PMID:Epidermal growth factor receptor inhibitors in cancer treatment: advances, challenges and opportunities. 1982 50

The let-7 family of microRNAs are important regulatory molecules in lung cancer. One downstream target of let-7 is the RAS gene family, including KRAS, an important oncogene in the etiology and clinical outcome of lung adenocarcinoma. Recently, a SNP in the let-7 binding region of the KRAS 3' UTR was identified (termed LCS6). This functional polymorphism alters let-7 binding, resulting in both increased KRAS expression and decreased let-7 exposure. Further, this SNP has been reported as a risk trait for lung cancer among low-moderate smokers. Given the functionality of LCS6, we tested the hypothesis that this SNP is associated with the occurrence of KRAS mutation as well as patient survival. Here, we report there is no association between the LCS6 KRAS polymorphism and KRAS mutation. Further, we find no association between the LCS6 polymorphism and lung cancer survival. These unexpected findings imply that this newly reported KRAS-LCS6 polymorphism will have limited clinical utility for NSCLC.
Lung Cancer 2010 Jul
PMID:KRAS mutation, KRAS-LCS6 polymorphism, and non-small cell lung cancer. 1985 34

Drug treatment for human lung cancers remains unsatisfactory, despite the identification of many potential therapeutic targets (such as mutant KRAS protein) and the approval of agents that inhibit the tyrosine kinase activity of mutant epidermal growth factor receptor (EGFR). To seek new therapeutic strategies against lung tumors, the authors have screened 189,290 small molecules for their ability to retard growth of human lung adenocarcinoma cell lines, which harbor mutations in EGFR or KRAS. Four candidates that are structurally different from common tyrosine kinase inhibitors were selected for further study. The authors describe one small molecule (designated lung cancer screen-1 [LCS-1]) in detail here. Identification of the targets of LCS-1 and other growth inhibitors found in this screen may help to develop new agents for the treatment of lung adenocarcinomas, including those driven by mutant EGFR and KRAS.
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PMID:Identification and preliminary characterization of novel small molecules that inhibit growth of human lung adenocarcinoma cells. 1988 99

FXYD3 is a FXYD-containing Na,K-ATPase ion channel regulator first identified as a protein overexpressed in murine breast tumors initiated by oncogenic ras or neu. However, our preliminary study revealed that FXYD3 expression was down-regulated in oncogenic KRAS-transduced airway epithelial cells. This contradiction led us to investigate the role of FXYD3 in carcinogenesis of the lung. FXYD3 mRNA and protein levels were lower in most of the lung cancer cell lines than in either the noncancerous lung tissue or airway epithelial cells. Protein levels were also lower in a considerable proportion of primary lung cancers than in nontumoral airway epithelia; FXYD3 expression levels decreased in parallel with the dedifferentiation process. Also, a somatic point mutation, g55c (D19H), was found in one cell line. Forced expression of the wild-type FXYD3, but not the mutant, restored the well-demarcated distribution of cortical actin in cancer cells that had lost FXYD3 expression, suggesting FXYD3 plays a role in the maintenance of cytoskeletal integrity. However, no association between FXYD3 expression and its promoter's methylation status was observed. Therefore, inactivation of FXYD3 through a gene mutation or unknown mechanism could be one cause of the atypical shapes of cancer cells and play a potential role in the progression of lung cancer.
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PMID:Down-regulation of FXYD3 expression in human lung cancers: its mechanism and potential role in carcinogenesis. 1989 46

Germline TSC1 or TSC2 mutations cause tuberous sclerosis complex (TSC), a hamartoma syndrome with lung involvement. To explore the potential interaction between TSC1 and KRAS activation in lung cancer, mice in which Tsc1 loss and Kras(G12D) expression occur in a small fraction of lung epithelial cells were generated. Mice with a combined Tsc1-Kras(G12D) mutation had dramatically reduced tumor latency (median survival: 11.6-15.6 weeks) in comparison with Kras(G12D) alone mutant mice (median survival: 27.5 weeks). Tsc1-Kras(G12D) tumors showed consistent activation of mTOR (mammalian target of rapamycin)C1 and responded to treatment with rapamycin, leading to significantly improved survival, whereas rapamycin had minor effects on cancers in Kras(G12D) alone mice. Loss of heterozygosity for TSC1 or TSC2 was found in 22% of 86 human lung cancer specimens. However, none of the 80 lung cancer lines studied showed evidence of the lack of expression of either TSC1 or TSC2 or a signaling pattern corresponding to complete loss. These data indicate that Tsc1 loss synergizes with the Kras mutation to enhance lung tumorigenesis in the mouse, but that this is a rare event in human lung cancer. Rapamycin may have unique benefit for patients with lung cancer, for whom the TSC1/TSC2 function is limited.
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PMID:TSC1 loss synergizes with KRAS activation in lung cancer development in the mouse and confers rapamycin sensitivity. 1996 66

Lung cancer is one of the most common cancers in the world. While historically, more men than women have died from lung cancer as a result of higher numbers of male smokers, the sex mortality ratio is now showing signs of narrowing. Tumors in women with lung cancer may be slightly different to those in men with lung cancer. This review focuses on biomarkers differentially expressed between female and male patients with lung cancer. There is variation in gene expression between men and women in some genes that encode carcinogen-metabolizing enzymes (CYP1A1, GSTM). Gastrin-releasing peptide (GRP), a bombesin-like peptide, is present in two actively transcribed alleles in women compared with men. Higher prevalence of infection with oncogenic variants human papilloma viruses (HPVs) HPV16 and HPV18 has been suggested in women. A higher frequency of G to T transversion was found in the p53 gene in lung tumors of women. KRAS mutation was found to be more frequent in women with resected non-small cell lung cancer (NSCLC) than in men with resected NSCLC. Epidermal growth factor receptor (EGFR) mutation is more frequently found in lung tumors from women, but the confounding effect of tobacco exposure may explain this difference. Lower levels of ERCC1 and BRCA1 have been reported in women with NSCLC. Lung tumors from women are more likely to express estrogen receptors than those from men. An in silico analysis of transcriptome datasets from lung cancer patients demonstrated that only seven genes (in at least two studies) had significantly different expression patterns in male versus female patients. All of these genes are localized on the sex chromosomes: one on chromosome X and six on chromosome Y. Many areas remain under debate and there are still significant gaps in our understanding, particularly how sex-linked factors relate to lung cancer risk, and to biological and clinical behaviors. Future research into lung cancer needs to address these gender differences more specifically.
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PMID:Differential expression of biomarkers in men and women. 1999 47

Lung cancer is the most common tumor-related cause of death in western industrialized countries, despite continuous improvement in both diagnostic and therapeutic approaches. Since epidermal growth factor receptor (EGFR) is overexpressed in 80% of cases of non-small cell lung carcinoma, mediating important carcinogenic properties such as cell-cycle progression, apoptosis, angiogenesis and metastasis, it is considered a relevant target in novel specific therapies. This has lead to the development of the low-molecular EGFR tyrosine kinase inhibitors (EGFR-TKI) Gefitinib and Erlotinib. Predicting which patients will respond to an EGFR-targeted therapy is of particular clinical interest. Recent studies show a significantly better response and prolonged progression-free survival in patients with EGFR-mutated tumors, even when used as first-line therapy. Moreover, genetic mutations which correlate to primary EGFR-TKI resistance (e.g. KRAS) or produce secondary resistance to known TKI (e.g. EGFR mutation T790 M or MET amplification) have meanwhile been explained. Predictive diagnosis of these mutations using histological material is becoming increasingly important for patient stratification and will soon be indispensable not only for lung cancer.
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PMID:[Molecular diagnostics in lung carcinoma for therapy stratification]. 1999 36


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